/*
 * Snes9x - Portable Super Nintendo Entertainment System (TM) emulator.
 *
 * (c) Copyright 1996 - 2001 Gary Henderson (gary.henderson@ntlworld.com) and
 *                           Jerremy Koot (jkoot@snes9x.com)
 *
 * Super FX C emulator code
 * (c) Copyright 1997 - 1999 Ivar (ivar@snes9x.com) and
 *                           Gary Henderson.
 * Super FX assembler emulator code (c) Copyright 1998 zsKnight and _Demo_.
 *
 * DSP1 emulator code (c) Copyright 1998 Ivar, _Demo_ and Gary Henderson.
 * C4 asm and some C emulation code (c) Copyright 2000 zsKnight and _Demo_.
 * C4 C code (c) Copyright 2001 Gary Henderson (gary.henderson@ntlworld.com).
 *
 * (c) Copyright 2014 - 2016 Daniel De Matteis. (UNDER NO CIRCUMSTANCE 
 * WILL COMMERCIAL RIGHTS EVER BE APPROPRIATED TO ANY PARTY)
 *
 * DOS port code contains the works of other authors. See headers in
 * individual files.
 *
 * Snes9x homepage: http://www.snes9x.com
 *
 * Permission to use, copy, modify and distribute Snes9x in both binary and
 * source form, for non-commercial purposes, is hereby granted without fee,
 * providing that this license information and copyright notice appear with
 * all copies and any derived work.
 *
 * This software is provided 'as-is', without any express or implied
 * warranty. In no event shall the authors be held liable for any damages
 * arising from the use of this software.
 *
 * Snes9x is freeware for PERSONAL USE only. Commercial users should
 * seek permission of the copyright holders first. Commercial use includes
 * charging money for Snes9x or software derived from Snes9x.
 *
 * The copyright holders request that bug fixes and improvements to the code
 * should be forwarded to them so everyone can benefit from the modifications
 * in future versions.
 *
 * Super NES and Super Nintendo Entertainment System are trademarks of
 * Nintendo Co., Limited and its subsidiary companies.
 */

/**********************************************************************************************/
/* CPU-S9xOpcodes.CPP                                                                            */
/* This file contains all the opcodes                                                         */
/**********************************************************************************************/

#include "snes9x.h"
#include "memmap.h"
#include "missing.h"
#include "apu.h"
#include "sa1.h"
//#include "spc7110.h"

#include "cpuexec.h"
#include "cpuaddr.h"
#include "cpuops.h"
#include "cpumacro.h"
#include "apu.h"

/* ADC *************************************************************************************** */
static void Op69M1(void)
{
   Immediate8();
   ADC8();
}

static void Op69M0(void)
{
   Immediate16();
   ADC16();
}

static void Op65M1(void)
{
   Direct();
   ADC8();
}

static void Op65M0(void)
{
   Direct();
   ADC16();
}

static void Op75M1(void)
{
   DirectIndexedX();
   ADC8();
}

static void Op75M0(void)
{
   DirectIndexedX();
   ADC16();
}

static void Op72M1(void)
{
   DirectIndirect();
   ADC8();
}

static void Op72M0(void)
{
   DirectIndirect();
   ADC16();
}

static void Op61M1(void)
{
   DirectIndexedIndirect();
   ADC8();
}

static void Op61M0(void)
{
   DirectIndexedIndirect();
   ADC16();
}

static void Op71M1(void)
{
   DirectIndirectIndexed();
   ADC8();
}

static void Op71M0(void)
{
   DirectIndirectIndexed();
   ADC16();
}

static void Op67M1(void)
{
   DirectIndirectLong();
   ADC8();
}

static void Op67M0(void)
{
   DirectIndirectLong();
   ADC16();
}

static void Op77M1(void)
{
   DirectIndirectIndexedLong();
   ADC8();
}

static void Op77M0(void)
{
   DirectIndirectIndexedLong();
   ADC16();
}

static void Op6DM1(void)
{
   Absolute();
   ADC8();
}

static void Op6DM0(void)
{
   Absolute();
   ADC16();
}

static void Op7DM1(void)
{
   AbsoluteIndexedX();
   ADC8();
}

static void Op7DM0(void)
{
   AbsoluteIndexedX();
   ADC16();
}

static void Op79M1(void)
{
   AbsoluteIndexedY();
   ADC8();
}

static void Op79M0(void)
{
   AbsoluteIndexedY();
   ADC16();
}

static void Op6FM1(void)
{
   AbsoluteLong();
   ADC8();
}

static void Op6FM0(void)
{
   AbsoluteLong();
   ADC16();
}

static void Op7FM1(void)
{
   AbsoluteLongIndexedX();
   ADC8();
}

static void Op7FM0(void)
{
   AbsoluteLongIndexedX();
   ADC16();
}

static void Op63M1(void)
{
   StackRelative();
   ADC8();
}

static void Op63M0(void)
{
   StackRelative();
   ADC16();
}

static void Op73M1(void)
{
   StackRelativeIndirectIndexed();
   ADC8();
}

static void Op73M0(void)
{
   StackRelativeIndirectIndexed();
   ADC16();
}

/**********************************************************************************************/

/* AND *************************************************************************************** */
static void Op29M1(void)
{
   Registers.AL &= *CPU.PC++;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
   SetZN8(Registers.AL);
}

static void Op29M0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   Registers.A.W &= *(uint16*) CPU.PC;
#else
   Registers.A.W &= *CPU.PC + (*(CPU.PC + 1) << 8);
#endif
   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
   SetZN16(Registers.A.W);
}

static void Op25M1(void)
{
   Direct();
   AND8();
}

static void Op25M0(void)
{
   Direct();
   AND16();
}

static void Op35M1(void)
{
   DirectIndexedX();
   AND8();
}

static void Op35M0(void)
{
   DirectIndexedX();
   AND16();
}

static void Op32M1(void)
{
   DirectIndirect();
   AND8();
}

static void Op32M0(void)
{
   DirectIndirect();
   AND16();
}

static void Op21M1(void)
{
   DirectIndexedIndirect();
   AND8();
}

static void Op21M0(void)
{
   DirectIndexedIndirect();
   AND16();
}

static void Op31M1(void)
{
   DirectIndirectIndexed();
   AND8();
}

static void Op31M0(void)
{
   DirectIndirectIndexed();
   AND16();
}

static void Op27M1(void)
{
   DirectIndirectLong();
   AND8();
}

static void Op27M0(void)
{
   DirectIndirectLong();
   AND16();
}

static void Op37M1(void)
{
   DirectIndirectIndexedLong();
   AND8();
}

static void Op37M0(void)
{
   DirectIndirectIndexedLong();
   AND16();
}

static void Op2DM1(void)
{
   Absolute();
   AND8();
}

static void Op2DM0(void)
{
   Absolute();
   AND16();
}

static void Op3DM1(void)
{
   AbsoluteIndexedX();
   AND8();
}

static void Op3DM0(void)
{
   AbsoluteIndexedX();
   AND16();
}

static void Op39M1(void)
{
   AbsoluteIndexedY();
   AND8();
}

static void Op39M0(void)
{
   AbsoluteIndexedY();
   AND16();
}

static void Op2FM1(void)
{
   AbsoluteLong();
   AND8();
}

static void Op2FM0(void)
{
   AbsoluteLong();
   AND16();
}

static void Op3FM1(void)
{
   AbsoluteLongIndexedX();
   AND8();
}

static void Op3FM0(void)
{
   AbsoluteLongIndexedX();
   AND16();
}

static void Op23M1(void)
{
   StackRelative();
   AND8();
}

static void Op23M0(void)
{
   StackRelative();
   AND16();
}

static void Op33M1(void)
{
   StackRelativeIndirectIndexed();
   AND8();
}

static void Op33M0(void)
{
   StackRelativeIndirectIndexed();
   AND16();
}
/**********************************************************************************************/

/* ASL *************************************************************************************** */
static void Op0AM1(void)
{
   A_ASL8();
}

static void Op0AM0(void)
{
   A_ASL16();
}

static void Op06M1(void)
{
   Direct();
   ASL8();
}

static void Op06M0(void)
{
   Direct();
   ASL16();
}

static void Op16M1(void)
{
   DirectIndexedX();
   ASL8();
}

static void Op16M0(void)
{
   DirectIndexedX();
   ASL16();

}

static void Op0EM1(void)
{
   Absolute();
   ASL8();
}

static void Op0EM0(void)
{
   Absolute();
   ASL16();
}

static void Op1EM1(void)
{
   AbsoluteIndexedX();
   ASL8();
}

static void Op1EM0(void)
{
   AbsoluteIndexedX();
   ASL16();
}
/**********************************************************************************************/

/* BIT *************************************************************************************** */
static void Op89M1(void)
{
   ICPU._Zero = Registers.AL & *CPU.PC++;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
}

static void Op89M0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   ICPU._Zero = (Registers.A.W & *(uint16*) CPU.PC) != 0;
#else
   ICPU._Zero = (Registers.A.W & (*CPU.PC + (*(CPU.PC + 1) << 8))) != 0;
#endif
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
   CPU.PC += 2;
}

static void Op24M1(void)
{
   Direct();
   BIT8();
}

static void Op24M0(void)
{
   Direct();
   BIT16();
}

static void Op34M1(void)
{
   DirectIndexedX();
   BIT8();
}

static void Op34M0(void)
{
   DirectIndexedX();
   BIT16();
}

static void Op2CM1(void)
{
   Absolute();
   BIT8();
}

static void Op2CM0(void)
{
   Absolute();
   BIT16();
}

static void Op3CM1(void)
{
   AbsoluteIndexedX();
   BIT8();
}

static void Op3CM0(void)
{
   AbsoluteIndexedX();
   BIT16();
}
/**********************************************************************************************/

/* CMP *************************************************************************************** */
static void OpC9M1(void)
{
   long s9xInt32 = (int) Registers.AL - (int) * CPU.PC++;
   ICPU._Carry = s9xInt32 >= 0;
   SetZN8((uint8) s9xInt32);
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
}

static void OpC9M0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   long s9xInt32 = (long) Registers.A.W - (long) * (uint16*) CPU.PC;
#else
   long s9xInt32 = (long) Registers.A.W -
                   (long)(*CPU.PC + (*(CPU.PC + 1) << 8));
#endif
   ICPU._Carry = s9xInt32 >= 0;
   SetZN16((uint16) s9xInt32);
   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
}

static void OpC5M1(void)
{
   Direct();
   CMP8();
}

static void OpC5M0(void)
{
   Direct();
   CMP16();
}

static void OpD5M1(void)
{
   DirectIndexedX();
   CMP8();
}

static void OpD5M0(void)
{
   DirectIndexedX();
   CMP16();
}

static void OpD2M1(void)
{
   DirectIndirect();
   CMP8();
}

static void OpD2M0(void)
{
   DirectIndirect();
   CMP16();
}

static void OpC1M1(void)
{
   DirectIndexedIndirect();
   CMP8();
}

static void OpC1M0(void)
{
   DirectIndexedIndirect();
   CMP16();
}

static void OpD1M1(void)
{
   DirectIndirectIndexed();
   CMP8();
}

static void OpD1M0(void)
{
   DirectIndirectIndexed();
   CMP16();
}

static void OpC7M1(void)
{
   DirectIndirectLong();
   CMP8();
}

static void OpC7M0(void)
{
   DirectIndirectLong();
   CMP16();
}

static void OpD7M1(void)
{
   DirectIndirectIndexedLong();
   CMP8();
}

static void OpD7M0(void)
{
   DirectIndirectIndexedLong();
   CMP16();
}

static void OpCDM1(void)
{
   Absolute();
   CMP8();
}

static void OpCDM0(void)
{
   Absolute();
   CMP16();
}

static void OpDDM1(void)
{
   AbsoluteIndexedX();
   CMP8();
}

static void OpDDM0(void)
{
   AbsoluteIndexedX();
   CMP16();
}

static void OpD9M1(void)
{
   AbsoluteIndexedY();
   CMP8();
}

static void OpD9M0(void)
{
   AbsoluteIndexedY();
   CMP16();
}

static void OpCFM1(void)
{
   AbsoluteLong();
   CMP8();
}

static void OpCFM0(void)
{
   AbsoluteLong();
   CMP16();
}

static void OpDFM1(void)
{
   AbsoluteLongIndexedX();
   CMP8();
}

static void OpDFM0(void)
{
   AbsoluteLongIndexedX();
   CMP16();
}

static void OpC3M1(void)
{
   StackRelative();
   CMP8();
}

static void OpC3M0(void)
{
   StackRelative();
   CMP16();
}

static void OpD3M1(void)
{
   StackRelativeIndirectIndexed();
   CMP8();
}

static void OpD3M0(void)
{
   StackRelativeIndirectIndexed();
   CMP16();
}

/**********************************************************************************************/

/* CMX *************************************************************************************** */
static void OpE0X1(void)
{
   long s9xInt32 = (int) Registers.XL - (int) * CPU.PC++;
   ICPU._Carry = s9xInt32 >= 0;
   SetZN8((uint8) s9xInt32);
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
}

static void OpE0X0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   long s9xInt32 = (long) Registers.X.W - (long) * (uint16*) CPU.PC;
#else
   long s9xInt32 = (long) Registers.X.W -
                   (long)(*CPU.PC + (*(CPU.PC + 1) << 8));
#endif
   ICPU._Carry = s9xInt32 >= 0;
   SetZN16((uint16) s9xInt32);
   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
}

static void OpE4X1(void)
{
   Direct();
   CMX8();
}

static void OpE4X0(void)
{
   Direct();
   CMX16();
}

static void OpECX1(void)
{
   Absolute();
   CMX8();
}

static void OpECX0(void)
{
   Absolute();
   CMX16();
}

/**********************************************************************************************/

/* CMY *************************************************************************************** */
static void OpC0X1(void)
{
   long s9xInt32 = (int) Registers.YL - (int) * CPU.PC++;
   ICPU._Carry = s9xInt32 >= 0;
   SetZN8((uint8) s9xInt32);
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
}

static void OpC0X0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   long s9xInt32 = (long) Registers.Y.W - (long) * (uint16*) CPU.PC;
#else
   long s9xInt32 = (long) Registers.Y.W -
                   (long)(*CPU.PC + (*(CPU.PC + 1) << 8));
#endif
   ICPU._Carry = s9xInt32 >= 0;
   SetZN16((uint16) s9xInt32);
   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
}

static void OpC4X1(void)
{
   Direct();
   CMY8();
}

static void OpC4X0(void)
{
   Direct();
   CMY16();
}

static void OpCCX1(void)
{
   Absolute();
   CMY8();
}

static void OpCCX0(void)
{
   Absolute();
   CMY16();
}

/**********************************************************************************************/

/* DEC *************************************************************************************** */
static void Op3AM1(void)
{
   A_DEC8();
}

static void Op3AM0(void)
{
   A_DEC16();
}

static void OpC6M1(void)
{
   Direct();
   DEC8();
}

static void OpC6M0(void)
{
   Direct();
   DEC16();
}

static void OpD6M1(void)
{
   DirectIndexedX();
   DEC8();
}

static void OpD6M0(void)
{
   DirectIndexedX();
   DEC16();
}

static void OpCEM1(void)
{
   Absolute();
   DEC8();
}

static void OpCEM0(void)
{
   Absolute();
   DEC16();
}

static void OpDEM1(void)
{
   AbsoluteIndexedX();
   DEC8();
}

static void OpDEM0(void)
{
   AbsoluteIndexedX();
   DEC16();
}

/**********************************************************************************************/

/* EOR *************************************************************************************** */
static void Op49M1(void)
{
   Registers.AL ^= *CPU.PC++;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
   SetZN8(Registers.AL);
}

static void Op49M0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   Registers.A.W ^= *(uint16*) CPU.PC;
#else
   Registers.A.W ^= *CPU.PC + (*(CPU.PC + 1) << 8);
#endif
   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
   SetZN16(Registers.A.W);
}

static void Op45M1(void)
{
   Direct();
   EOR8();
}

static void Op45M0(void)
{
   Direct();
   EOR16();
}

static void Op55M1(void)
{
   DirectIndexedX();
   EOR8();
}

static void Op55M0(void)
{
   DirectIndexedX();
   EOR16();
}

static void Op52M1(void)
{
   DirectIndirect();
   EOR8();
}

static void Op52M0(void)
{
   DirectIndirect();
   EOR16();
}

static void Op41M1(void)
{
   DirectIndexedIndirect();
   EOR8();
}

static void Op41M0(void)
{
   DirectIndexedIndirect();
   EOR16();
}

static void Op51M1(void)
{
   DirectIndirectIndexed();
   EOR8();
}

static void Op51M0(void)
{
   DirectIndirectIndexed();
   EOR16();
}

static void Op47M1(void)
{
   DirectIndirectLong();
   EOR8();
}

static void Op47M0(void)
{
   DirectIndirectLong();
   EOR16();
}

static void Op57M1(void)
{
   DirectIndirectIndexedLong();
   EOR8();
}

static void Op57M0(void)
{
   DirectIndirectIndexedLong();
   EOR16();
}

static void Op4DM1(void)
{
   Absolute();
   EOR8();
}

static void Op4DM0(void)
{
   Absolute();
   EOR16();
}

static void Op5DM1(void)
{
   AbsoluteIndexedX();
   EOR8();
}

static void Op5DM0(void)
{
   AbsoluteIndexedX();
   EOR16();
}

static void Op59M1(void)
{
   AbsoluteIndexedY();
   EOR8();
}

static void Op59M0(void)
{
   AbsoluteIndexedY();
   EOR16();
}

static void Op4FM1(void)
{
   AbsoluteLong();
   EOR8();
}

static void Op4FM0(void)
{
   AbsoluteLong();
   EOR16();
}

static void Op5FM1(void)
{
   AbsoluteLongIndexedX();
   EOR8();
}

static void Op5FM0(void)
{
   AbsoluteLongIndexedX();
   EOR16();
}

static void Op43M1(void)
{
   StackRelative();
   EOR8();
}

static void Op43M0(void)
{
   StackRelative();
   EOR16();
}

static void Op53M1(void)
{
   StackRelativeIndirectIndexed();
   EOR8();
}

static void Op53M0(void)
{
   StackRelativeIndirectIndexed();
   EOR16();
}

/**********************************************************************************************/

/* INC *************************************************************************************** */
static void Op1AM1(void)
{
   A_INC8();
}

static void Op1AM0(void)
{
   A_INC16();
}

static void OpE6M1(void)
{
   Direct();
   INC8();
}

static void OpE6M0(void)
{
   Direct();
   INC16();
}

static void OpF6M1(void)
{
   DirectIndexedX();
   INC8();
}

static void OpF6M0(void)
{
   DirectIndexedX();
   INC16();
}

static void OpEEM1(void)
{
   Absolute();
   INC8();
}

static void OpEEM0(void)
{
   Absolute();
   INC16();
}

static void OpFEM1(void)
{
   AbsoluteIndexedX();
   INC8();
}

static void OpFEM0(void)
{
   AbsoluteIndexedX();
   INC16();
}

/**********************************************************************************************/
/* LDA *************************************************************************************** */
static void OpA9M1(void)
{
   Registers.AL = *CPU.PC++;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
   SetZN8(Registers.AL);
}

static void OpA9M0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   Registers.A.W = *(uint16*) CPU.PC;
#else
   Registers.A.W = *CPU.PC + (*(CPU.PC + 1) << 8);
#endif

   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
   SetZN16(Registers.A.W);
}

static void OpA5M1(void)
{
   Direct();
   LDA8();
}

static void OpA5M0(void)
{
   Direct();
   LDA16();
}

static void OpB5M1(void)
{
   DirectIndexedX();
   LDA8();
}

static void OpB5M0(void)
{
   DirectIndexedX();
   LDA16();
}

static void OpB2M1(void)
{
   DirectIndirect();
   LDA8();
}

static void OpB2M0(void)
{
   DirectIndirect();
   LDA16();
}

static void OpA1M1(void)
{
   DirectIndexedIndirect();
   LDA8();
}

static void OpA1M0(void)
{
   DirectIndexedIndirect();
   LDA16();
}

static void OpB1M1(void)
{
   DirectIndirectIndexed();
   LDA8();
}

static void OpB1M0(void)
{
   DirectIndirectIndexed();
   LDA16();
}

static void OpA7M1(void)
{
   DirectIndirectLong();
   LDA8();
}

static void OpA7M0(void)
{
   DirectIndirectLong();
   LDA16();
}

static void OpB7M1(void)
{
   DirectIndirectIndexedLong();
   LDA8();
}

static void OpB7M0(void)
{
   DirectIndirectIndexedLong();
   LDA16();
}

static void OpADM1(void)
{
   Absolute();
   LDA8();
}

static void OpADM0(void)
{
   Absolute();
   LDA16();
}

static void OpBDM1(void)
{
   AbsoluteIndexedX();
   LDA8();
}

static void OpBDM0(void)
{
   AbsoluteIndexedX();
   LDA16();
}

static void OpB9M1(void)
{
   AbsoluteIndexedY();
   LDA8();
}

static void OpB9M0(void)
{
   AbsoluteIndexedY();
   LDA16();
}

static void OpAFM1(void)
{
   AbsoluteLong();
   LDA8();
}

static void OpAFM0(void)
{
   AbsoluteLong();
   LDA16();
}

static void OpBFM1(void)
{
   AbsoluteLongIndexedX();
   LDA8();
}

static void OpBFM0(void)
{
   AbsoluteLongIndexedX();
   LDA16();
}

static void OpA3M1(void)
{
   StackRelative();
   LDA8();
}

static void OpA3M0(void)
{
   StackRelative();
   LDA16();
}

static void OpB3M1(void)
{
   StackRelativeIndirectIndexed();
   LDA8();
}

static void OpB3M0(void)
{
   StackRelativeIndirectIndexed();
   LDA16();
}

/**********************************************************************************************/

/* LDX *************************************************************************************** */
static void OpA2X1(void)
{
   Registers.XL = *CPU.PC++;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
   SetZN8(Registers.XL);
}

static void OpA2X0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   Registers.X.W = *(uint16*) CPU.PC;
#else
   Registers.X.W = *CPU.PC + (*(CPU.PC + 1) << 8);
#endif
   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
   SetZN16(Registers.X.W);
}

static void OpA6X1(void)
{
   Direct();
   LDX8();
}

static void OpA6X0(void)
{
   Direct();
   LDX16();
}

static void OpB6X1(void)
{
   DirectIndexedY();
   LDX8();
}

static void OpB6X0(void)
{
   DirectIndexedY();
   LDX16();
}

static void OpAEX1(void)
{
   Absolute();
   LDX8();
}

static void OpAEX0(void)
{
   Absolute();
   LDX16();
}

static void OpBEX1(void)
{
   AbsoluteIndexedY();
   LDX8();
}

static void OpBEX0(void)
{
   AbsoluteIndexedY();
   LDX16();
}
/**********************************************************************************************/

/* LDY *************************************************************************************** */
static void OpA0X1(void)
{
   Registers.YL = *CPU.PC++;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
   SetZN8(Registers.YL);
}

static void OpA0X0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   Registers.Y.W = *(uint16*) CPU.PC;
#else
   Registers.Y.W = *CPU.PC + (*(CPU.PC + 1) << 8);
#endif

   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
   SetZN16(Registers.Y.W);
}

static void OpA4X1(void)
{
   Direct();
   LDY8();
}

static void OpA4X0(void)
{
   Direct();
   LDY16();
}

static void OpB4X1(void)
{
   DirectIndexedX();
   LDY8();
}

static void OpB4X0(void)
{
   DirectIndexedX();
   LDY16();
}

static void OpACX1(void)
{
   Absolute();
   LDY8();
}

static void OpACX0(void)
{
   Absolute();
   LDY16();
}

static void OpBCX1(void)
{
   AbsoluteIndexedX();
   LDY8();
}

static void OpBCX0(void)
{
   AbsoluteIndexedX();
   LDY16();
}
/**********************************************************************************************/

/* LSR *************************************************************************************** */
static void Op4AM1(void)
{
   A_LSR8();
}

static void Op4AM0(void)
{
   A_LSR16();
}

static void Op46M1(void)
{
   Direct();
   LSR8();
}

static void Op46M0(void)
{
   Direct();
   LSR16();
}

static void Op56M1(void)
{
   DirectIndexedX();
   LSR8();
}

static void Op56M0(void)
{
   DirectIndexedX();
   LSR16();
}

static void Op4EM1(void)
{
   Absolute();
   LSR8();
}

static void Op4EM0(void)
{
   Absolute();
   LSR16();
}

static void Op5EM1(void)
{
   AbsoluteIndexedX();
   LSR8();
}

static void Op5EM0(void)
{
   AbsoluteIndexedX();
   LSR16();
}

/**********************************************************************************************/

/* ORA *************************************************************************************** */
static void Op09M1(void)
{
   Registers.AL |= *CPU.PC++;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
   SetZN8(Registers.AL);
}

static void Op09M0(void)
{
#ifdef FAST_LSB_WORD_ACCESS
   Registers.A.W |= *(uint16*) CPU.PC;
#else
   Registers.A.W |= *CPU.PC + (*(CPU.PC + 1) << 8);
#endif
   CPU.PC += 2;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2;
#endif
   SetZN16(Registers.A.W);
}

static void Op05M1(void)
{
   Direct();
   ORA8();
}

static void Op05M0(void)
{
   Direct();
   ORA16();
}

static void Op15M1(void)
{
   DirectIndexedX();
   ORA8();
}

static void Op15M0(void)
{
   DirectIndexedX();
   ORA16();
}

static void Op12M1(void)
{
   DirectIndirect();
   ORA8();
}

static void Op12M0(void)
{
   DirectIndirect();
   ORA16();
}

static void Op01M1(void)
{
   DirectIndexedIndirect();
   ORA8();
}

static void Op01M0(void)
{
   DirectIndexedIndirect();
   ORA16();
}

static void Op11M1(void)
{
   DirectIndirectIndexed();
   ORA8();
}

static void Op11M0(void)
{
   DirectIndirectIndexed();
   ORA16();
}

static void Op07M1(void)
{
   DirectIndirectLong();
   ORA8();
}

static void Op07M0(void)
{
   DirectIndirectLong();
   ORA16();
}

static void Op17M1(void)
{
   DirectIndirectIndexedLong();
   ORA8();
}

static void Op17M0(void)
{
   DirectIndirectIndexedLong();
   ORA16();
}

static void Op0DM1(void)
{
   Absolute();
   ORA8();
}

static void Op0DM0(void)
{
   Absolute();
   ORA16();
}

static void Op1DM1(void)
{
   AbsoluteIndexedX();
   ORA8();
}

static void Op1DM0(void)
{
   AbsoluteIndexedX();
   ORA16();
}

static void Op19M1(void)
{
   AbsoluteIndexedY();
   ORA8();
}

static void Op19M0(void)
{
   AbsoluteIndexedY();
   ORA16();
}

static void Op0FM1(void)
{
   AbsoluteLong();
   ORA8();
}

static void Op0FM0(void)
{
   AbsoluteLong();
   ORA16();
}

static void Op1FM1(void)
{
   AbsoluteLongIndexedX();
   ORA8();
}

static void Op1FM0(void)
{
   AbsoluteLongIndexedX();
   ORA16();
}

static void Op03M1(void)
{
   StackRelative();
   ORA8();
}

static void Op03M0(void)
{
   StackRelative();
   ORA16();
}

static void Op13M1(void)
{
   StackRelativeIndirectIndexed();
   ORA8();
}

static void Op13M0(void)
{
   StackRelativeIndirectIndexed();
   ORA16();
}

/**********************************************************************************************/

/* ROL *************************************************************************************** */
static void Op2AM1(void)
{
   A_ROL8();
}

static void Op2AM0(void)
{
   A_ROL16();
}

static void Op26M1(void)
{
   Direct();
   ROL8();
}

static void Op26M0(void)
{
   Direct();
   ROL16();
}

static void Op36M1(void)
{
   DirectIndexedX();
   ROL8();
}

static void Op36M0(void)
{
   DirectIndexedX();
   ROL16();
}

static void Op2EM1(void)
{
   Absolute();
   ROL8();
}

static void Op2EM0(void)
{
   Absolute();
   ROL16();
}

static void Op3EM1(void)
{
   AbsoluteIndexedX();
   ROL8();
}

static void Op3EM0(void)
{
   AbsoluteIndexedX();
   ROL16();
}
/**********************************************************************************************/

/* ROR *************************************************************************************** */
static void Op6AM1(void)
{
   A_ROR8();
}

static void Op6AM0(void)
{
   A_ROR16();
}

static void Op66M1(void)
{
   Direct();
   ROR8();
}

static void Op66M0(void)
{
   Direct();
   ROR16();
}

static void Op76M1(void)
{
   DirectIndexedX();
   ROR8();
}

static void Op76M0(void)
{
   DirectIndexedX();
   ROR16();
}

static void Op6EM1(void)
{
   Absolute();
   ROR8();
}

static void Op6EM0(void)
{
   Absolute();
   ROR16();
}

static void Op7EM1(void)
{
   AbsoluteIndexedX();
   ROR8();
}

static void Op7EM0(void)
{
   AbsoluteIndexedX();
   ROR16();
}
/**********************************************************************************************/

/* SBC *************************************************************************************** */
static void OpE9M1(void)
{
   Immediate8();
   SBC8();
}

static void OpE9M0(void)
{
   Immediate16();
   SBC16();
}

static void OpE5M1(void)
{
   Direct();
   SBC8();
}

static void OpE5M0(void)
{
   Direct();
   SBC16();
}

static void OpF5M1(void)
{
   DirectIndexedX();
   SBC8();
}

static void OpF5M0(void)
{
   DirectIndexedX();
   SBC16();
}

static void OpF2M1(void)
{
   DirectIndirect();
   SBC8();
}

static void OpF2M0(void)
{
   DirectIndirect();
   SBC16();
}

static void OpE1M1(void)
{
   DirectIndexedIndirect();
   SBC8();
}

static void OpE1M0(void)
{
   DirectIndexedIndirect();
   SBC16();
}

static void OpF1M1(void)
{
   DirectIndirectIndexed();
   SBC8();
}

static void OpF1M0(void)
{
   DirectIndirectIndexed();
   SBC16();
}

static void OpE7M1(void)
{
   DirectIndirectLong();
   SBC8();
}

static void OpE7M0(void)
{
   DirectIndirectLong();
   SBC16();
}

static void OpF7M1(void)
{
   DirectIndirectIndexedLong();
   SBC8();
}

static void OpF7M0(void)
{
   DirectIndirectIndexedLong();
   SBC16();
}

static void OpEDM1(void)
{
   Absolute();
   SBC8();
}

static void OpEDM0(void)
{
   Absolute();
   SBC16();
}

static void OpFDM1(void)
{
   AbsoluteIndexedX();
   SBC8();
}

static void OpFDM0(void)
{
   AbsoluteIndexedX();
   SBC16();
}

static void OpF9M1(void)
{
   AbsoluteIndexedY();
   SBC8();
}

static void OpF9M0(void)
{
   AbsoluteIndexedY();
   SBC16();
}

static void OpEFM1(void)
{
   AbsoluteLong();
   SBC8();
}

static void OpEFM0(void)
{
   AbsoluteLong();
   SBC16();
}

static void OpFFM1(void)
{
   AbsoluteLongIndexedX();
   SBC8();
}

static void OpFFM0(void)
{
   AbsoluteLongIndexedX();
   SBC16();
}

static void OpE3M1(void)
{
   StackRelative();
   SBC8();
}

static void OpE3M0(void)
{
   StackRelative();
   SBC16();
}

static void OpF3M1(void)
{
   StackRelativeIndirectIndexed();
   SBC8();
}

static void OpF3M0(void)
{
   StackRelativeIndirectIndexed();
   SBC16();
}
/**********************************************************************************************/

/* STA *************************************************************************************** */
static void Op85M1(void)
{
   Direct();
   STA8();
}

static void Op85M0(void)
{
   Direct();
   STA16();
}

static void Op95M1(void)
{
   DirectIndexedX();
   STA8();
}

static void Op95M0(void)
{
   DirectIndexedX();
   STA16();
}

static void Op92M1(void)
{
   DirectIndirect();
   STA8();
}

static void Op92M0(void)
{
   DirectIndirect();
   STA16();
}

static void Op81M1(void)
{
   DirectIndexedIndirect();
   STA8();
#ifdef VAR_CYCLES
   if (CheckIndex())
      CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op81M0(void)
{
   DirectIndexedIndirect();
   STA16();
#ifdef VAR_CYCLES
   if (CheckIndex())
      CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op91M1(void)
{
   DirectIndirectIndexed();
   STA8();
}

static void Op91M0(void)
{
   DirectIndirectIndexed();
   STA16();
}

static void Op87M1(void)
{
   DirectIndirectLong();
   STA8();
}

static void Op87M0(void)
{
   DirectIndirectLong();
   STA16();
}

static void Op97M1(void)
{
   DirectIndirectIndexedLong();
   STA8();
}

static void Op97M0(void)
{
   DirectIndirectIndexedLong();
   STA16();
}

static void Op8DM1(void)
{
   Absolute();
   STA8();
}

static void Op8DM0(void)
{
   Absolute();
   STA16();
}

static void Op9DM1(void)
{
   AbsoluteIndexedX();
   STA8();
}

static void Op9DM0(void)
{
   AbsoluteIndexedX();
   STA16();
}

static void Op99M1(void)
{
   AbsoluteIndexedY();
   STA8();
}

static void Op99M0(void)
{
   AbsoluteIndexedY();
   STA16();
}

static void Op8FM1(void)
{
   AbsoluteLong();
   STA8();
}

static void Op8FM0(void)
{
   AbsoluteLong();
   STA16();
}

static void Op9FM1(void)
{
   AbsoluteLongIndexedX();
   STA8();
}

static void Op9FM0(void)
{
   AbsoluteLongIndexedX();
   STA16();
}

static void Op83M1(void)
{
   StackRelative();
   STA8();
}

static void Op83M0(void)
{
   StackRelative();
   STA16();
}

static void Op93M1(void)
{
   StackRelativeIndirectIndexed();
   STA8();
}

static void Op93M0(void)
{
   StackRelativeIndirectIndexed();
   STA16();
}
/**********************************************************************************************/

/* STX *************************************************************************************** */
static void Op86X1(void)
{
   Direct();
   STX8();
}

static void Op86X0(void)
{
   Direct();
   STX16();
}

static void Op96X1(void)
{
   DirectIndexedY();
   STX8();
}

static void Op96X0(void)
{
   DirectIndexedY();
   STX16();
}

static void Op8EX1(void)
{
   Absolute();
   STX8();
}

static void Op8EX0(void)
{
   Absolute();
   STX16();
}
/**********************************************************************************************/

/* STY *************************************************************************************** */
static void Op84X1(void)
{
   Direct();
   STY8();
}

static void Op84X0(void)
{
   Direct();
   STY16();
}

static void Op94X1(void)
{
   DirectIndexedX();
   STY8();
}

static void Op94X0(void)
{
   DirectIndexedX();
   STY16();
}

static void Op8CX1(void)
{
   Absolute();
   STY8();
}

static void Op8CX0(void)
{
   Absolute();
   STY16();
}
/**********************************************************************************************/

/* STZ *************************************************************************************** */
static void Op64M1(void)
{
   Direct();
   STZ8();
}

static void Op64M0(void)
{
   Direct();
   STZ16();
}

static void Op74M1(void)
{
   DirectIndexedX();
   STZ8();
}

static void Op74M0(void)
{
   DirectIndexedX();
   STZ16();
}

static void Op9CM1(void)
{
   Absolute();
   STZ8();
}

static void Op9CM0(void)
{
   Absolute();
   STZ16();
}

static void Op9EM1(void)
{
   AbsoluteIndexedX();
   STZ8();
}

static void Op9EM0(void)
{
   AbsoluteIndexedX();
   STZ16();
}

/**********************************************************************************************/

/* TRB *************************************************************************************** */
static void Op14M1(void)
{
   Direct();
   TRB8();
}

static void Op14M0(void)
{
   Direct();
   TRB16();
}

static void Op1CM1(void)
{
   Absolute();
   TRB8();
}

static void Op1CM0(void)
{
   Absolute();
   TRB16();
}
/**********************************************************************************************/

/* TSB *************************************************************************************** */
static void Op04M1(void)
{
   Direct();
   TSB8();
}

static void Op04M0(void)
{
   Direct();
   TSB16();
}

static void Op0CM1(void)
{
   Absolute();
   TSB8();
}

static void Op0CM0(void)
{
   Absolute();
   TSB16();
}

/**********************************************************************************************/

/* Branch Instructions *********************************************************************** */
#ifndef SA1_OPCODES
#define BranchCheck0()\
    if( CPU.BranchSkip)\
    {\
   CPU.BranchSkip = FALSE;\
   if (!Settings.SoundSkipMethod)\
       if( CPU.PC - CPU.PCBase > OpAddress)\
           return;\
    }

#define BranchCheck1()\
    if( CPU.BranchSkip)\
    {\
   CPU.BranchSkip = FALSE;\
   if (!Settings.SoundSkipMethod) {\
       if( CPU.PC - CPU.PCBase > OpAddress)\
           return;\
   } else \
   if (Settings.SoundSkipMethod == 1)\
       return;\
   if (Settings.SoundSkipMethod == 3)\
       if( CPU.PC - CPU.PCBase > OpAddress)\
           return;\
       else\
      CPU.PC = CPU.PCBase + OpAddress;\
    }

#define BranchCheck2()\
    if( CPU.BranchSkip)\
    {\
   CPU.BranchSkip = FALSE;\
   if (!Settings.SoundSkipMethod) {\
       if( CPU.PC - CPU.PCBase > OpAddress)\
           return;\
   } else \
   if (Settings.SoundSkipMethod == 1)\
       CPU.PC = CPU.PCBase + OpAddress;\
   if (Settings.SoundSkipMethod == 3)\
       if (CPU.PC - CPU.PCBase > OpAddress)\
           return;\
       else\
      CPU.PC = CPU.PCBase + OpAddress;\
    }
#else
#define BranchCheck0()
#define BranchCheck1()
#define BranchCheck2()
#endif

#ifdef CPU_SHUTDOWN
#ifndef SA1_OPCODES
static INLINE void CPUShutdown()
{
   if (Settings.Shutdown && CPU.PC == CPU.WaitAddress)
   {
      // Don't skip cycles with a pending NMI or IRQ - could cause delayed
      // interrupt. Interrupts are delayed for a few cycles already, but
      //  the delay could allow the shutdown code to cycle skip again.
      // Was causing screen flashing on Top Gear 3000.

      if (CPU.WaitCounter == 0 && !(CPU.Flags & (IRQ_PENDING_FLAG | NMI_FLAG)))
      {
         CPU.WaitAddress = NULL;
#ifdef USE_SA1
         if (Settings.SA1)  S9xSA1ExecuteDuringSleep();
         CPU.Cycles = CPU.NextEvent;
#endif
         //S9xUpdateAPUTimer();
         asm_APU_EXECUTE2();
      }
      else
      {
         if (CPU.WaitCounter >= 2) CPU.WaitCounter = 1;
         else CPU.WaitCounter--;
      }
   }
}
#else
static INLINE void CPUShutdown()
{
   if (Settings.Shutdown && CPU.PC == CPU.WaitAddress)
   {
      if (CPU.WaitCounter >= 1)
      {
         SA1.Executing = FALSE;
         SA1.CPUExecuting = FALSE;
      }
      else
         CPU.WaitCounter++;
   }
}
#endif
#else
#define CPUShutdown()
#endif

/* BCC */
static void Op90(void)
{
   Relative();
   BranchCheck0();
   if (!CheckCarry())
   {
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}

/* BCS */
static void OpB0(void)
{
   Relative();
   BranchCheck0();
   if (CheckCarry())
   {
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}

/* BEQ */
static void OpF0(void)
{
   Relative();
   BranchCheck2();
   if (CheckZero())
   {
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}

/* BMI */
static void Op30(void)
{
   Relative();


   BranchCheck1();
   if (CheckNegative())
   {
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}

/* BNE */
static void OpD0(void)
{
   Relative();
   BranchCheck1();
   if (!CheckZero())
   {
      CPU.PC = CPU.PCBase + OpAddress;

#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}

/* BPL */
static void Op10(void)
{
   Relative();
   BranchCheck1();
   if (!CheckNegative())
   {
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}

/* BRA */
static void Op80(void)
{
   Relative();
   CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
   CPU.Cycles++;
#endif
#endif
   CPUShutdown();
}

/* BVC */
static void Op50(void)
{
   Relative();
   BranchCheck0();
   if (!CheckOverflow())
   {
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}

/* BVS */
static void Op70(void)
{
   Relative();
   BranchCheck0();
   if (CheckOverflow())
   {
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
   }
}
/**********************************************************************************************/

/* ClearFlag Instructions ******************************************************************** */
/* CLC */
static void Op18(void)
{
   ClearCarry();
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

/* CLD */
static void OpD8(void)
{
   ClearDecimal();
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

/* CLI */
static void Op58(void)
{
   ClearIRQ();
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   /*    CHECK_FOR_IRQ(); */
}

/* CLV */
static void OpB8(void)
{
   ClearOverflow();
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}
/**********************************************************************************************/

/* DEX/DEY *********************************************************************************** */
static void OpCAX1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.XL--;
   SetZN8(Registers.XL);
}

static void OpCAX0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.X.W--;
   SetZN16(Registers.X.W);
}

static void Op88X1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.YL--;
   SetZN8(Registers.YL);
}

static void Op88X0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.Y.W--;
   SetZN16(Registers.Y.W);
}
/**********************************************************************************************/

/* INX/INY *********************************************************************************** */
static void OpE8X1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.XL++;
   SetZN8(Registers.XL);
}

static void OpE8X0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.X.W++;
   SetZN16(Registers.X.W);
}

static void OpC8X1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.YL++;
   SetZN8(Registers.YL);
}

static void OpC8X0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
#ifdef CPU_SHUTDOWN
   CPU.WaitAddress = NULL;
#endif

   Registers.Y.W++;
   SetZN16(Registers.Y.W);
}

/**********************************************************************************************/

/* NOP *************************************************************************************** */
static void OpEA(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif

}
/**********************************************************************************************/

/* PUSH Instructions ************************************************************************* */
#define PushW(w) \
    S9xSetWord (w, Registers.S.W - 1);\
    Registers.S.W -= 2;
#define PushB(b)\
    S9xSetByte (b, Registers.S.W--);

static void OpF4(void)
{
   Absolute();
   PushW((unsigned short)OpAddress);
}

static void OpD4(void)
{
   DirectIndirect();
   PushW((unsigned short)OpAddress);
}

static void Op62(void)
{
   RelativeLong();
   PushW((unsigned short)OpAddress);
}

static void Op48M1(void)
{
   PushB(Registers.AL);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op48M0(void)
{
   PushW(Registers.A.W);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op8B(void)
{
   PushB(Registers.DB);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op0B(void)
{
   PushW(Registers.D.W);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op4B(void)
{
   PushB(Registers.PB);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op08(void)
{
   S9xPackStatus();
   PushB(Registers.PL);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void OpDAX1(void)
{
   PushB(Registers.XL);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void OpDAX0(void)
{
   PushW(Registers.X.W);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op5AX1(void)
{
   PushB(Registers.YL);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op5AX0(void)
{
   PushW(Registers.Y.W);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}
/**********************************************************************************************/

/* PULL Instructions ************************************************************************* */
#define PullW(w) \
   w = S9xGetWord (Registers.S.W + 1); \
   Registers.S.W += 2;

#define PullB(b)\
   b = S9xGetByte (++Registers.S.W);

static void Op68M1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullB(Registers.AL);
   SetZN8(Registers.AL);
}

static void Op68M0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullW(Registers.A.W);
   SetZN16(Registers.A.W);
}

static void OpAB(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullB(Registers.DB);
   SetZN8(Registers.DB);
   ICPU.ShiftedDB = Registers.DB << 16;
}

/* PHP */
static void Op2B(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullW(Registers.D.W);
   SetZN16(Registers.D.W);
}

/* PLP */
static void Op28(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullB(Registers.PL);
   S9xUnpackStatus();

   if (CheckIndex())
   {
      Registers.XH = 0;
      Registers.YH = 0;
   }
   S9xFixCycles();
   /*     CHECK_FOR_IRQ();*/
}

static void OpFAX1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullB(Registers.XL);
   SetZN8(Registers.XL);
}

static void OpFAX0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullW(Registers.X.W);
   SetZN16(Registers.X.W);
}

static void Op7AX1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   PullB(Registers.YL);
   SetZN8(Registers.YL);
}

static void Op7AX0(void)
{
#ifdef VAR_CYCLES

   CPU.Cycles += TWO_CYCLES;
#endif
   PullW(Registers.Y.W);
   SetZN16(Registers.Y.W);
}

/**********************************************************************************************/

/* SetFlag Instructions ********************************************************************** */
/* SEC */
static void Op38(void)
{
   SetCarry();
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

/* SED */
static void OpF8(void)
{
   SetDecimal();
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   missing.decimal_mode = 1;
}

/* SEI */
static void Op78(void)
{
   SetIRQ();
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}
/**********************************************************************************************/

/* Transfer Instructions ********************************************************************* */
/* TAX8 */
static void OpAAX1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.XL = Registers.AL;
   SetZN8(Registers.XL);
}

/* TAX16 */
static void OpAAX0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.X.W = Registers.A.W;
   SetZN16(Registers.X.W);
}

/* TAY8 */
static void OpA8X1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.YL = Registers.AL;
   SetZN8(Registers.YL);
}

/* TAY16 */
static void OpA8X0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.Y.W = Registers.A.W;
   SetZN16(Registers.Y.W);
}

static void Op5B(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.D.W = Registers.A.W;
   SetZN16(Registers.D.W);
}

static void Op1B(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.S.W = Registers.A.W;
   if (CheckEmulation())
      Registers.SH = 1;
}

static void Op7B(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.A.W = Registers.D.W;
   SetZN16(Registers.A.W);
}

static void Op3B(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.A.W = Registers.S.W;
   SetZN16(Registers.A.W);
}

static void OpBAX1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.XL = Registers.SL;
   SetZN8(Registers.XL);
}

static void OpBAX0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.X.W = Registers.S.W;
   SetZN16(Registers.X.W);
}

static void Op8AM1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.AL = Registers.XL;
   SetZN8(Registers.AL);
}

static void Op8AM0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.A.W = Registers.X.W;
   SetZN16(Registers.A.W);
}

static void Op9A(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.S.W = Registers.X.W;
   if (CheckEmulation())
      Registers.SH = 1;
}

static void Op9BX1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.YL = Registers.XL;
   SetZN8(Registers.YL);
}

static void Op9BX0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.Y.W = Registers.X.W;
   SetZN16(Registers.Y.W);
}

static void Op98M1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.AL = Registers.YL;
   SetZN8(Registers.AL);
}

static void Op98M0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.A.W = Registers.Y.W;
   SetZN16(Registers.A.W);
}

static void OpBBX1(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.XL = Registers.YL;
   SetZN8(Registers.XL);
}

static void OpBBX0(void)
{
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
   Registers.X.W = Registers.Y.W;
   SetZN16(Registers.X.W);
}

/**********************************************************************************************/

/* XCE *************************************************************************************** */
static void OpFB(void)
{
   uint8 A1, A2;
#ifdef VAR_CYCLES
   CPU.Cycles  += ONE_CYCLE;
#endif

   A1           = ICPU._Carry;
   A2           = Registers.PH;
   ICPU._Carry  = A2 & 1;
   Registers.PH = A1;

   if (CheckEmulation())
   {
      SetFlags(MemoryFlag | IndexFlag);
      Registers.SH = 1;
      missing.emulate6502 = 1;
   }
   if (CheckIndex())
   {
      Registers.XH = 0;
      Registers.YH = 0;
   }
   S9xFixCycles();
}
/**********************************************************************************************/

/* BRK *************************************************************************************** */
static void Op00(void)
{
#ifndef SA1_OPCODES
   CPU.BRKTriggered = TRUE;
#endif

   if (!CheckEmulation())
   {
      PushB(Registers.PB);
      PushW(CPU.PC - CPU.PCBase + 1);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
      S9xSetPCBase(S9xGetWord(0xFFE6));
#ifdef VAR_CYCLES
      CPU.Cycles += TWO_CYCLES;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 8;
#endif
#endif
   }
   else
   {
      PushW(CPU.PC - CPU.PCBase);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
      S9xSetPCBase(S9xGetWord(0xFFFE));
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 6;
#endif
#endif
   }
}
/**********************************************************************************************/

/* BRL ************************************************************************************** */
static void Op82(void)
{
   RelativeLong();
   S9xSetPCBase(ICPU.ShiftedPB + OpAddress);
}
/**********************************************************************************************/

/* IRQ *************************************************************************************** */
void S9xOpcode_IRQ(void)
{
   if (!CheckEmulation())
   {
      PushB(Registers.PB);
      PushW(CPU.PC - CPU.PCBase);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
#ifdef SA1_OPCODES
      S9xSA1SetPCBase(Memory.FillRAM [0x2207] |
                      (Memory.FillRAM [0x2208] << 8));
#else
      if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x40))
         S9xSetPCBase(Memory.FillRAM [0x220e] |
                      (Memory.FillRAM [0x220f] << 8));
      else
         S9xSetPCBase(S9xGetWord(0xFFEE));
#endif
#ifdef VAR_CYCLES
      CPU.Cycles += TWO_CYCLES;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 8;
#endif
#endif
   }
   else
   {
      PushW(CPU.PC - CPU.PCBase);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
#ifdef SA1_OPCODES
      S9xSA1SetPCBase(Memory.FillRAM [0x2207] |
                      (Memory.FillRAM [0x2208] << 8));
#else
      if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x40))
         S9xSetPCBase(Memory.FillRAM [0x220e] |
                      (Memory.FillRAM [0x220f] << 8));
      else
         S9xSetPCBase(S9xGetWord(0xFFFE));
#endif
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 6;
#endif
#endif
   }
}

/**********************************************************************************************/

/* NMI *************************************************************************************** */
void S9xOpcode_NMI(void)
{
   if (!CheckEmulation())
   {
      PushB(Registers.PB);
      PushW(CPU.PC - CPU.PCBase);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
#ifdef SA1_OPCODES
      S9xSA1SetPCBase(Memory.FillRAM [0x2205] |
                      (Memory.FillRAM [0x2206] << 8));
#else
      if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x20))
         S9xSetPCBase(Memory.FillRAM [0x220c] |
                      (Memory.FillRAM [0x220d] << 8));
      else
         S9xSetPCBase(S9xGetWord(0xFFEA));
#endif
#ifdef VAR_CYCLES
      CPU.Cycles += TWO_CYCLES;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 8;
#endif
#endif
   }
   else
   {
      PushW(CPU.PC - CPU.PCBase);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
#ifdef SA1_OPCODES
      S9xSA1SetPCBase(Memory.FillRAM [0x2205] |
                      (Memory.FillRAM [0x2206] << 8));
#else
      if (Settings.SA1 && (Memory.FillRAM [0x2209] & 0x20))
         S9xSetPCBase(Memory.FillRAM [0x220c] |
                      (Memory.FillRAM [0x220d] << 8));
      else
         S9xSetPCBase(S9xGetWord(0xFFFA));
#endif
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 6;
#endif
#endif
   }
}
/**********************************************************************************************/

/* COP *************************************************************************************** */
static void Op02(void)
{
   if (!CheckEmulation())
   {
      PushB(Registers.PB);
      PushW(CPU.PC - CPU.PCBase + 1);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
      S9xSetPCBase(S9xGetWord(0xFFE4));
#ifdef VAR_CYCLES
      CPU.Cycles += TWO_CYCLES;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 8;
#endif
#endif
   }
   else
   {
      PushW(CPU.PC - CPU.PCBase);
      S9xPackStatus();
      PushB(Registers.PL);
      ClearDecimal();
      SetIRQ();

      Registers.PB = 0;
      ICPU.ShiftedPB = 0;
      S9xSetPCBase(S9xGetWord(0xFFF4));
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 6;
#endif
#endif
   }
}
/**********************************************************************************************/

/* JML *************************************************************************************** */
static void OpDC(void)
{
   AbsoluteIndirectLong();
   Registers.PB = (uint8)(OpAddress >> 16);
   ICPU.ShiftedPB = OpAddress & 0xff0000;
   S9xSetPCBase(OpAddress);
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
}

static void Op5C(void)
{
   AbsoluteLong();
   Registers.PB = (uint8)(OpAddress >> 16);
   ICPU.ShiftedPB = OpAddress & 0xff0000;
   S9xSetPCBase(OpAddress);
}
/**********************************************************************************************/

/* JMP *************************************************************************************** */
static void Op4C(void)
{
   Absolute();
   S9xSetPCBase(ICPU.ShiftedPB + (OpAddress & 0xffff));
#if defined(CPU_SHUTDOWN) && defined(SA1_OPCODES)
   CPUShutdown();
#endif
}

static void Op6C(void)
{
   AbsoluteIndirect();
   S9xSetPCBase(ICPU.ShiftedPB + (OpAddress & 0xffff));
}

static void Op7C(void)
{
   AbsoluteIndexedIndirect();
   S9xSetPCBase(ICPU.ShiftedPB + OpAddress);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}
/**********************************************************************************************/

/* JSL/RTL *********************************************************************************** */
static void Op22(void)
{
   AbsoluteLong();
   PushB(Registers.PB);
   PushW(CPU.PC - CPU.PCBase - 1);
   Registers.PB = (uint8)(OpAddress >> 16);
   ICPU.ShiftedPB = OpAddress & 0xff0000;
   S9xSetPCBase(OpAddress);
}

static void Op6B(void)
{
   PullW(Registers.PC);
   PullB(Registers.PB);
   ICPU.ShiftedPB = Registers.PB << 16;
   S9xSetPCBase(ICPU.ShiftedPB + ((Registers.PC + 1) & 0xffff));
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
}
/**********************************************************************************************/

/* JSR/RTS *********************************************************************************** */
static void Op20(void)
{
   Absolute();
   PushW(CPU.PC - CPU.PCBase - 1);
   S9xSetPCBase(ICPU.ShiftedPB + (OpAddress & 0xffff));
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void OpFC(void)
{
   AbsoluteIndexedIndirect();
   PushW(CPU.PC - CPU.PCBase - 1);
   S9xSetPCBase(ICPU.ShiftedPB + OpAddress);
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE;
#endif
}

static void Op60(void)
{
   PullW(Registers.PC);
   S9xSetPCBase(ICPU.ShiftedPB + ((Registers.PC + 1) & 0xffff));
#ifdef VAR_CYCLES
   CPU.Cycles += ONE_CYCLE * 3;
#endif
}

/**********************************************************************************************/

/* MVN/MVP *********************************************************************************** */
static void Op54X1(void)
{
   uint32 SrcBank;

#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES;
#endif

   Registers.DB = *CPU.PC++;
   ICPU.ShiftedDB = Registers.DB << 16;
   SrcBank = *CPU.PC++;

   S9xSetByte(S9xGetByte((SrcBank << 16) + Registers.X.W),
              ICPU.ShiftedDB + Registers.Y.W);

   Registers.XL++;
   Registers.YL++;
   Registers.A.W--;
   if (Registers.A.W != 0xffff)
      CPU.PC -= 3;
}

static void Op54X0(void)
{
   uint32 SrcBank;

#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES;
#endif

   Registers.DB = *CPU.PC++;
   ICPU.ShiftedDB = Registers.DB << 16;
   SrcBank = *CPU.PC++;

   S9xSetByte(S9xGetByte((SrcBank << 16) + Registers.X.W),
              ICPU.ShiftedDB + Registers.Y.W);

   Registers.X.W++;
   Registers.Y.W++;
   Registers.A.W--;
   if (Registers.A.W != 0xffff)
      CPU.PC -= 3;
}

static void Op44X1(void)
{
   uint32 SrcBank;

#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES;
#endif
   Registers.DB = *CPU.PC++;
   ICPU.ShiftedDB = Registers.DB << 16;
   SrcBank = *CPU.PC++;
   S9xSetByte(S9xGetByte((SrcBank << 16) + Registers.X.W),
              ICPU.ShiftedDB + Registers.Y.W);

   Registers.XL--;
   Registers.YL--;
   Registers.A.W--;
   if (Registers.A.W != 0xffff)
      CPU.PC -= 3;
}

static void Op44X0(void)
{
   uint32 SrcBank;

#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeedx2 + TWO_CYCLES;
#endif
   Registers.DB = *CPU.PC++;
   ICPU.ShiftedDB = Registers.DB << 16;
   SrcBank = *CPU.PC++;
   S9xSetByte(S9xGetByte((SrcBank << 16) + Registers.X.W),
              ICPU.ShiftedDB + Registers.Y.W);

   Registers.X.W--;
   Registers.Y.W--;
   Registers.A.W--;
   if (Registers.A.W != 0xffff)
      CPU.PC -= 3;
}

/**********************************************************************************************/

/* REP/SEP *********************************************************************************** */
static void OpC2(void)
{
   uint8 Work8 = ~*CPU.PC++;
   Registers.PL &= Work8;
   ICPU._Carry &= Work8;
   ICPU._Overflow &= (Work8 >> 6);
   ICPU._Negative &= Work8;
   ICPU._Zero |= ~Work8 & Zero;

#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed + ONE_CYCLE;
#endif
   if (CheckEmulation())
   {
      SetFlags(MemoryFlag | IndexFlag);
      missing.emulate6502 = 1;
   }
   if (CheckIndex())
   {
      Registers.XH = 0;
      Registers.YH = 0;
   }
   S9xFixCycles();
   /*    CHECK_FOR_IRQ(); */
}

static void OpE2(void)
{
   uint8 Work8 = *CPU.PC++;
   Registers.PL |= Work8;
   ICPU._Carry |= Work8 & 1;
   ICPU._Overflow |= (Work8 >> 6) & 1;
   ICPU._Negative |= Work8;
   if (Work8 & Zero)
      ICPU._Zero = 0;
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed + ONE_CYCLE;
#endif
   if (CheckEmulation())
   {
      SetFlags(MemoryFlag | IndexFlag);
      missing.emulate6502 = 1;
   }
   if (CheckIndex())
   {
      Registers.XH = 0;
      Registers.YH = 0;
   }
   S9xFixCycles();
}
/**********************************************************************************************/

/* XBA *************************************************************************************** */
static void OpEB(void)
{
   uint8 Work8 = Registers.AL;
   Registers.AL = Registers.AH;
   Registers.AH = Work8;

   SetZN8(Registers.AL);
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
}
/**********************************************************************************************/

/* RTI *************************************************************************************** */
static void Op40(void)
{
   PullB(Registers.PL);
   S9xUnpackStatus();
   PullW(Registers.PC);
   if (!CheckEmulation())
   {
      PullB(Registers.PB);
      ICPU.ShiftedPB = Registers.PB << 16;
   }
   else
   {
      SetFlags(MemoryFlag | IndexFlag);
      missing.emulate6502 = 1;
   }
   S9xSetPCBase(ICPU.ShiftedPB + Registers.PC);

   if (CheckIndex())
   {
      Registers.XH = 0;
      Registers.YH = 0;
   }
#ifdef VAR_CYCLES
   CPU.Cycles += TWO_CYCLES;
#endif
   S9xFixCycles();
   /*    CHECK_FOR_IRQ(); */
}

/**********************************************************************************************/

/* STP/WAI/DB ******************************************************************************** */
// WAI
static void OpCB(void)
{
   if (CPU.IRQActive)
   {
#ifdef VAR_CYCLES
      CPU.Cycles += TWO_CYCLES;
#else
#ifndef SA1_OPCODES
      CPU.Cycles += 2;
#endif
#endif
   }
   else
   {
      CPU.WaitingForInterrupt = TRUE;
      CPU.PC--;
#ifdef CPU_SHUTDOWN
#ifndef SA1_OPCODES
      if (Settings.Shutdown)
      {
         CPU.Cycles = CPU.NextEvent;
         asm_APU_EXECUTE2();
      }
#else
      if (Settings.Shutdown)
      {
         SA1.CPUExecuting = FALSE;
         SA1.Executing = FALSE;
      }
#endif
#endif
   }
}

// STP
static void OpDB(void)
{
   CPU.PC--;
   CPU.Flags |= DEBUG_MODE_FLAG;
}

// Reserved S9xOpcode
static void Op42(void)
{
#ifndef SA1_OPCODES
   uint8 b;
   int8_t s9xInt8;

   CPU.WaitAddress = NULL;
   CPU.Cycles = CPU.NextEvent;
   asm_APU_EXECUTE2();
   //debug_log("toto");
   b = *CPU.PC++;

   //relative
   s9xInt8 = 0xF0 | (b & 0xF);
#ifdef VAR_CYCLES
   CPU.Cycles += CPU.MemSpeed;
#endif
   OpAddress = ((int)(CPU.PC - CPU.PCBase) + s9xInt8) & 0xffff;

   switch (b & 0xF0)
   {
   case 0x10: //BPL
      BranchCheck1();
      if (!CheckNegative())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   case 0x30: //BMI
      BranchCheck1();
      if (CheckNegative())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   case 0x50: //BVC
      BranchCheck0();
      if (!CheckOverflow())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   case 0x70: //BVS
      BranchCheck0();
      if (CheckOverflow())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   case 0x80: //BRA
      //op80
      CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
      CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
      CPU.Cycles++;
#endif
#endif
      CPUShutdown();
      return;
   case 0x90: //BCC
      BranchCheck0();
      if (!CheckCarry())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   case 0xB0: //BCS
      BranchCheck0();
      if (CheckCarry())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   case 0xD0: //BNE
      BranchCheck1();
      if (!CheckZero())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   case 0xF0: //BEQ
      BranchCheck2();
      if (CheckZero())
      {
         CPU.PC = CPU.PCBase + OpAddress;
#ifdef VAR_CYCLES
         CPU.Cycles += ONE_CYCLE;
#else
#ifndef SA1_OPCODES
         CPU.Cycles++;
#endif
#endif
         CPUShutdown();
      }
      return;
   }
#endif
}

/**********************************************************************************************/

/**********************************************************************************************/
/* CPU-S9xOpcodes Definitions                                                                    */
/**********************************************************************************************/
SOpcodes S9xOpcodesM1X1[256] =
{
   {Op00},  {Op01M1},    {Op02},      {Op03M1},    {Op04M1},
   {Op05M1},    {Op06M1},    {Op07M1},    {Op08},      {Op09M1},
   {Op0AM1},    {Op0B},      {Op0CM1},    {Op0DM1},    {Op0EM1},
   {Op0FM1},    {Op10},      {Op11M1},    {Op12M1},    {Op13M1},
   {Op14M1},    {Op15M1},    {Op16M1},    {Op17M1},    {Op18},
   {Op19M1},    {Op1AM1},    {Op1B},      {Op1CM1},    {Op1DM1},
   {Op1EM1},    {Op1FM1},    {Op20},      {Op21M1},    {Op22},
   {Op23M1},    {Op24M1},    {Op25M1},    {Op26M1},    {Op27M1},
   {Op28},      {Op29M1},    {Op2AM1},    {Op2B},      {Op2CM1},
   {Op2DM1},    {Op2EM1},    {Op2FM1},    {Op30},      {Op31M1},
   {Op32M1},    {Op33M1},    {Op34M1},    {Op35M1},    {Op36M1},
   {Op37M1},    {Op38},      {Op39M1},    {Op3AM1},    {Op3B},
   {Op3CM1},    {Op3DM1},    {Op3EM1},    {Op3FM1},    {Op40},
   {Op41M1},    {Op42},      {Op43M1},    {Op44X1},    {Op45M1},
   {Op46M1},    {Op47M1},    {Op48M1},    {Op49M1},    {Op4AM1},
   {Op4B},      {Op4C},      {Op4DM1},    {Op4EM1},    {Op4FM1},
   {Op50},      {Op51M1},    {Op52M1},    {Op53M1},    {Op54X1},
   {Op55M1},    {Op56M1},    {Op57M1},    {Op58},      {Op59M1},
   {Op5AX1},    {Op5B},      {Op5C},      {Op5DM1},    {Op5EM1},
   {Op5FM1},    {Op60},      {Op61M1},    {Op62},      {Op63M1},
   {Op64M1},    {Op65M1},    {Op66M1},    {Op67M1},    {Op68M1},
   {Op69M1},    {Op6AM1},    {Op6B},      {Op6C},      {Op6DM1},
   {Op6EM1},    {Op6FM1},    {Op70},      {Op71M1},    {Op72M1},
   {Op73M1},    {Op74M1},    {Op75M1},    {Op76M1},    {Op77M1},
   {Op78},      {Op79M1},    {Op7AX1},    {Op7B},      {Op7C},
   {Op7DM1},    {Op7EM1},    {Op7FM1},    {Op80},      {Op81M1},
   {Op82},      {Op83M1},    {Op84X1},    {Op85M1},    {Op86X1},
   {Op87M1},    {Op88X1},    {Op89M1},    {Op8AM1},    {Op8B},
   {Op8CX1},    {Op8DM1},    {Op8EX1},    {Op8FM1},    {Op90},
   {Op91M1},    {Op92M1},    {Op93M1},    {Op94X1},    {Op95M1},
   {Op96X1},    {Op97M1},    {Op98M1},    {Op99M1},    {Op9A},
   {Op9BX1},    {Op9CM1},    {Op9DM1},    {Op9EM1},    {Op9FM1},
   {OpA0X1},    {OpA1M1},    {OpA2X1},    {OpA3M1},    {OpA4X1},
   {OpA5M1},    {OpA6X1},    {OpA7M1},    {OpA8X1},    {OpA9M1},
   {OpAAX1},    {OpAB},      {OpACX1},    {OpADM1},    {OpAEX1},
   {OpAFM1},    {OpB0},      {OpB1M1},    {OpB2M1},    {OpB3M1},
   {OpB4X1},    {OpB5M1},    {OpB6X1},    {OpB7M1},    {OpB8},
   {OpB9M1},    {OpBAX1},    {OpBBX1},    {OpBCX1},    {OpBDM1},
   {OpBEX1},    {OpBFM1},    {OpC0X1},    {OpC1M1},    {OpC2},
   {OpC3M1},    {OpC4X1},    {OpC5M1},    {OpC6M1},    {OpC7M1},
   {OpC8X1},    {OpC9M1},    {OpCAX1},    {OpCB},      {OpCCX1},
   {OpCDM1},    {OpCEM1},    {OpCFM1},    {OpD0},      {OpD1M1},
   {OpD2M1},    {OpD3M1},    {OpD4},      {OpD5M1},    {OpD6M1},
   {OpD7M1},    {OpD8},      {OpD9M1},    {OpDAX1},    {OpDB},
   {OpDC},      {OpDDM1},    {OpDEM1},    {OpDFM1},    {OpE0X1},
   {OpE1M1},    {OpE2},      {OpE3M1},    {OpE4X1},    {OpE5M1},
   {OpE6M1},    {OpE7M1},    {OpE8X1},    {OpE9M1},    {OpEA},

   {OpEB},      {OpECX1},    {OpEDM1},    {OpEEM1},    {OpEFM1},
   {OpF0},      {OpF1M1},    {OpF2M1},    {OpF3M1},    {OpF4},
   {OpF5M1},    {OpF6M1},    {OpF7M1},    {OpF8},      {OpF9M1},
   {OpFAX1},    {OpFB},      {OpFC},      {OpFDM1},    {OpFEM1},
   {OpFFM1}
};

SOpcodes S9xOpcodesM1X0[256] =
{
   {Op00},  {Op01M1},    {Op02},      {Op03M1},    {Op04M1},
   {Op05M1},    {Op06M1},    {Op07M1},    {Op08},      {Op09M1},
   {Op0AM1},    {Op0B},      {Op0CM1},    {Op0DM1},    {Op0EM1},
   {Op0FM1},    {Op10},      {Op11M1},    {Op12M1},    {Op13M1},
   {Op14M1},    {Op15M1},    {Op16M1},    {Op17M1},    {Op18},
   {Op19M1},    {Op1AM1},    {Op1B},      {Op1CM1},    {Op1DM1},
   {Op1EM1},    {Op1FM1},    {Op20},      {Op21M1},    {Op22},
   {Op23M1},    {Op24M1},    {Op25M1},    {Op26M1},    {Op27M1},
   {Op28},      {Op29M1},    {Op2AM1},    {Op2B},      {Op2CM1},
   {Op2DM1},    {Op2EM1},    {Op2FM1},    {Op30},      {Op31M1},
   {Op32M1},    {Op33M1},    {Op34M1},    {Op35M1},    {Op36M1},
   {Op37M1},    {Op38},      {Op39M1},    {Op3AM1},    {Op3B},
   {Op3CM1},    {Op3DM1},    {Op3EM1},    {Op3FM1},    {Op40},
   {Op41M1},    {Op42},      {Op43M1},    {Op44X0},    {Op45M1},
   {Op46M1},    {Op47M1},    {Op48M1},    {Op49M1},    {Op4AM1},
   {Op4B},      {Op4C},      {Op4DM1},    {Op4EM1},    {Op4FM1},
   {Op50},      {Op51M1},    {Op52M1},    {Op53M1},    {Op54X0},
   {Op55M1},    {Op56M1},    {Op57M1},    {Op58},      {Op59M1},
   {Op5AX0},    {Op5B},      {Op5C},      {Op5DM1},    {Op5EM1},
   {Op5FM1},    {Op60},      {Op61M1},    {Op62},      {Op63M1},
   {Op64M1},    {Op65M1},    {Op66M1},    {Op67M1},    {Op68M1},
   {Op69M1},    {Op6AM1},    {Op6B},      {Op6C},      {Op6DM1},
   {Op6EM1},    {Op6FM1},    {Op70},      {Op71M1},    {Op72M1},
   {Op73M1},    {Op74M1},    {Op75M1},    {Op76M1},    {Op77M1},
   {Op78},      {Op79M1},    {Op7AX0},    {Op7B},      {Op7C},
   {Op7DM1},    {Op7EM1},    {Op7FM1},    {Op80},      {Op81M1},
   {Op82},      {Op83M1},    {Op84X0},    {Op85M1},    {Op86X0},
   {Op87M1},    {Op88X0},    {Op89M1},    {Op8AM1},    {Op8B},
   {Op8CX0},    {Op8DM1},    {Op8EX0},    {Op8FM1},    {Op90},
   {Op91M1},    {Op92M1},    {Op93M1},    {Op94X0},    {Op95M1},
   {Op96X0},    {Op97M1},    {Op98M1},    {Op99M1},    {Op9A},
   {Op9BX0},    {Op9CM1},    {Op9DM1},    {Op9EM1},    {Op9FM1},
   {OpA0X0},    {OpA1M1},    {OpA2X0},    {OpA3M1},    {OpA4X0},
   {OpA5M1},    {OpA6X0},    {OpA7M1},    {OpA8X0},    {OpA9M1},
   {OpAAX0},    {OpAB},      {OpACX0},    {OpADM1},    {OpAEX0},
   {OpAFM1},    {OpB0},      {OpB1M1},    {OpB2M1},    {OpB3M1},
   {OpB4X0},    {OpB5M1},    {OpB6X0},    {OpB7M1},    {OpB8},
   {OpB9M1},    {OpBAX0},    {OpBBX0},    {OpBCX0},    {OpBDM1},
   {OpBEX0},    {OpBFM1},    {OpC0X0},    {OpC1M1},    {OpC2},
   {OpC3M1},    {OpC4X0},    {OpC5M1},    {OpC6M1},    {OpC7M1},
   {OpC8X0},    {OpC9M1},    {OpCAX0},    {OpCB},      {OpCCX0},
   {OpCDM1},    {OpCEM1},    {OpCFM1},    {OpD0},      {OpD1M1},
   {OpD2M1},    {OpD3M1},    {OpD4},      {OpD5M1},    {OpD6M1},
   {OpD7M1},    {OpD8},      {OpD9M1},    {OpDAX0},    {OpDB},
   {OpDC},      {OpDDM1},    {OpDEM1},    {OpDFM1},    {OpE0X0},
   {OpE1M1},    {OpE2},      {OpE3M1},    {OpE4X0},    {OpE5M1},
   {OpE6M1},    {OpE7M1},    {OpE8X0},    {OpE9M1},    {OpEA},
   {OpEB},      {OpECX0},    {OpEDM1},    {OpEEM1},    {OpEFM1},
   {OpF0},      {OpF1M1},    {OpF2M1},    {OpF3M1},    {OpF4},
   {OpF5M1},    {OpF6M1},    {OpF7M1},    {OpF8},      {OpF9M1},
   {OpFAX0},    {OpFB},      {OpFC},      {OpFDM1},    {OpFEM1},
   {OpFFM1}
};

SOpcodes S9xOpcodesM0X0[256] =
{
   {Op00},  {Op01M0},    {Op02},      {Op03M0},    {Op04M0},
   {Op05M0},    {Op06M0},    {Op07M0},    {Op08},      {Op09M0},
   {Op0AM0},    {Op0B},      {Op0CM0},    {Op0DM0},    {Op0EM0},
   {Op0FM0},    {Op10},      {Op11M0},    {Op12M0},    {Op13M0},
   {Op14M0},    {Op15M0},    {Op16M0},    {Op17M0},    {Op18},
   {Op19M0},    {Op1AM0},    {Op1B},      {Op1CM0},    {Op1DM0},
   {Op1EM0},    {Op1FM0},    {Op20},      {Op21M0},    {Op22},
   {Op23M0},    {Op24M0},    {Op25M0},    {Op26M0},    {Op27M0},
   {Op28},      {Op29M0},    {Op2AM0},    {Op2B},      {Op2CM0},
   {Op2DM0},    {Op2EM0},    {Op2FM0},    {Op30},      {Op31M0},
   {Op32M0},    {Op33M0},    {Op34M0},    {Op35M0},    {Op36M0},
   {Op37M0},    {Op38},      {Op39M0},    {Op3AM0},    {Op3B},
   {Op3CM0},    {Op3DM0},    {Op3EM0},    {Op3FM0},    {Op40},
   {Op41M0},    {Op42},      {Op43M0},    {Op44X0},    {Op45M0},
   {Op46M0},    {Op47M0},    {Op48M0},    {Op49M0},    {Op4AM0},
   {Op4B},      {Op4C},      {Op4DM0},    {Op4EM0},    {Op4FM0},
   {Op50},      {Op51M0},    {Op52M0},    {Op53M0},    {Op54X0},
   {Op55M0},    {Op56M0},    {Op57M0},    {Op58},      {Op59M0},
   {Op5AX0},    {Op5B},      {Op5C},      {Op5DM0},    {Op5EM0},
   {Op5FM0},    {Op60},      {Op61M0},    {Op62},      {Op63M0},
   {Op64M0},    {Op65M0},    {Op66M0},    {Op67M0},    {Op68M0},
   {Op69M0},    {Op6AM0},    {Op6B},      {Op6C},      {Op6DM0},
   {Op6EM0},    {Op6FM0},    {Op70},      {Op71M0},    {Op72M0},
   {Op73M0},    {Op74M0},    {Op75M0},    {Op76M0},    {Op77M0},
   {Op78},      {Op79M0},    {Op7AX0},    {Op7B},      {Op7C},
   {Op7DM0},    {Op7EM0},    {Op7FM0},    {Op80},      {Op81M0},
   {Op82},      {Op83M0},    {Op84X0},    {Op85M0},    {Op86X0},
   {Op87M0},    {Op88X0},    {Op89M0},    {Op8AM0},    {Op8B},
   {Op8CX0},    {Op8DM0},    {Op8EX0},    {Op8FM0},    {Op90},
   {Op91M0},    {Op92M0},    {Op93M0},    {Op94X0},    {Op95M0},
   {Op96X0},    {Op97M0},    {Op98M0},    {Op99M0},    {Op9A},
   {Op9BX0},    {Op9CM0},    {Op9DM0},    {Op9EM0},    {Op9FM0},
   {OpA0X0},    {OpA1M0},    {OpA2X0},    {OpA3M0},    {OpA4X0},
   {OpA5M0},    {OpA6X0},    {OpA7M0},    {OpA8X0},    {OpA9M0},
   {OpAAX0},    {OpAB},      {OpACX0},    {OpADM0},    {OpAEX0},
   {OpAFM0},    {OpB0},      {OpB1M0},    {OpB2M0},    {OpB3M0},
   {OpB4X0},    {OpB5M0},    {OpB6X0},    {OpB7M0},    {OpB8},
   {OpB9M0},    {OpBAX0},    {OpBBX0},    {OpBCX0},    {OpBDM0},
   {OpBEX0},    {OpBFM0},    {OpC0X0},    {OpC1M0},    {OpC2},
   {OpC3M0},    {OpC4X0},    {OpC5M0},    {OpC6M0},    {OpC7M0},
   {OpC8X0},    {OpC9M0},    {OpCAX0},    {OpCB},      {OpCCX0},
   {OpCDM0},    {OpCEM0},    {OpCFM0},    {OpD0},      {OpD1M0},
   {OpD2M0},    {OpD3M0},    {OpD4},      {OpD5M0},    {OpD6M0},
   {OpD7M0},    {OpD8},      {OpD9M0},    {OpDAX0},    {OpDB},
   {OpDC},      {OpDDM0},    {OpDEM0},    {OpDFM0},    {OpE0X0},
   {OpE1M0},    {OpE2},      {OpE3M0},    {OpE4X0},    {OpE5M0},
   {OpE6M0},    {OpE7M0},    {OpE8X0},    {OpE9M0},    {OpEA},
   {OpEB},      {OpECX0},    {OpEDM0},    {OpEEM0},    {OpEFM0},
   {OpF0},      {OpF1M0},    {OpF2M0},    {OpF3M0},    {OpF4},
   {OpF5M0},    {OpF6M0},    {OpF7M0},    {OpF8},      {OpF9M0},
   {OpFAX0},    {OpFB},      {OpFC},      {OpFDM0},    {OpFEM0},
   {OpFFM0}
};

SOpcodes S9xOpcodesM0X1[256] =
{
   {Op00},  {Op01M0},    {Op02},      {Op03M0},    {Op04M0},
   {Op05M0},    {Op06M0},    {Op07M0},    {Op08},      {Op09M0},
   {Op0AM0},    {Op0B},      {Op0CM0},    {Op0DM0},    {Op0EM0},
   {Op0FM0},    {Op10},      {Op11M0},    {Op12M0},    {Op13M0},
   {Op14M0},    {Op15M0},    {Op16M0},    {Op17M0},    {Op18},
   {Op19M0},    {Op1AM0},    {Op1B},      {Op1CM0},    {Op1DM0},
   {Op1EM0},    {Op1FM0},    {Op20},      {Op21M0},    {Op22},
   {Op23M0},    {Op24M0},    {Op25M0},    {Op26M0},    {Op27M0},
   {Op28},      {Op29M0},    {Op2AM0},    {Op2B},      {Op2CM0},
   {Op2DM0},    {Op2EM0},    {Op2FM0},    {Op30},      {Op31M0},
   {Op32M0},    {Op33M0},    {Op34M0},    {Op35M0},    {Op36M0},
   {Op37M0},    {Op38},      {Op39M0},    {Op3AM0},    {Op3B},
   {Op3CM0},    {Op3DM0},    {Op3EM0},    {Op3FM0},    {Op40},
   {Op41M0},    {Op42},      {Op43M0},    {Op44X1},    {Op45M0},
   {Op46M0},    {Op47M0},    {Op48M0},    {Op49M0},    {Op4AM0},
   {Op4B},      {Op4C},      {Op4DM0},    {Op4EM0},    {Op4FM0},
   {Op50},      {Op51M0},    {Op52M0},    {Op53M0},    {Op54X1},
   {Op55M0},    {Op56M0},    {Op57M0},    {Op58},      {Op59M0},
   {Op5AX1},    {Op5B},      {Op5C},      {Op5DM0},    {Op5EM0},
   {Op5FM0},    {Op60},      {Op61M0},    {Op62},      {Op63M0},
   {Op64M0},    {Op65M0},    {Op66M0},    {Op67M0},    {Op68M0},
   {Op69M0},    {Op6AM0},    {Op6B},      {Op6C},      {Op6DM0},
   {Op6EM0},    {Op6FM0},    {Op70},      {Op71M0},    {Op72M0},
   {Op73M0},    {Op74M0},    {Op75M0},    {Op76M0},    {Op77M0},
   {Op78},      {Op79M0},    {Op7AX1},    {Op7B},      {Op7C},
   {Op7DM0},    {Op7EM0},    {Op7FM0},    {Op80},      {Op81M0},
   {Op82},      {Op83M0},    {Op84X1},    {Op85M0},    {Op86X1},
   {Op87M0},    {Op88X1},    {Op89M0},    {Op8AM0},    {Op8B},
   {Op8CX1},    {Op8DM0},    {Op8EX1},    {Op8FM0},    {Op90},
   {Op91M0},    {Op92M0},    {Op93M0},    {Op94X1},    {Op95M0},
   {Op96X1},    {Op97M0},    {Op98M0},    {Op99M0},    {Op9A},
   {Op9BX1},    {Op9CM0},    {Op9DM0},    {Op9EM0},    {Op9FM0},
   {OpA0X1},    {OpA1M0},    {OpA2X1},    {OpA3M0},    {OpA4X1},
   {OpA5M0},    {OpA6X1},    {OpA7M0},    {OpA8X1},    {OpA9M0},
   {OpAAX1},    {OpAB},      {OpACX1},    {OpADM0},    {OpAEX1},
   {OpAFM0},    {OpB0},      {OpB1M0},    {OpB2M0},    {OpB3M0},
   {OpB4X1},    {OpB5M0},    {OpB6X1},    {OpB7M0},    {OpB8},
   {OpB9M0},    {OpBAX1},    {OpBBX1},    {OpBCX1},    {OpBDM0},
   {OpBEX1},    {OpBFM0},    {OpC0X1},    {OpC1M0},    {OpC2},
   {OpC3M0},    {OpC4X1},    {OpC5M0},    {OpC6M0},    {OpC7M0},
   {OpC8X1},    {OpC9M0},    {OpCAX1},    {OpCB},      {OpCCX1},
   {OpCDM0},    {OpCEM0},    {OpCFM0},    {OpD0},      {OpD1M0},
   {OpD2M0},    {OpD3M0},    {OpD4},      {OpD5M0},    {OpD6M0},
   {OpD7M0},    {OpD8},      {OpD9M0},    {OpDAX1},    {OpDB},
   {OpDC},      {OpDDM0},    {OpDEM0},    {OpDFM0},    {OpE0X1},
   {OpE1M0},    {OpE2},      {OpE3M0},    {OpE4X1},    {OpE5M0},
   {OpE6M0},    {OpE7M0},    {OpE8X1},    {OpE9M0},    {OpEA},
   {OpEB},      {OpECX1},    {OpEDM0},    {OpEEM0},    {OpEFM0},
   {OpF0},      {OpF1M0},    {OpF2M0},    {OpF3M0},    {OpF4},
   {OpF5M0},    {OpF6M0},    {OpF7M0},    {OpF8},      {OpF9M0},
   {OpFAX1},    {OpFB},      {OpFC},      {OpFDM0},    {OpFEM0},
   {OpFFM0}
};

